DE60306733T2 - radial fans - Google Patents

Description

The The present invention relates to a centrifugal blower and more particularly on a centrifugal fan, that in particular for an air conditioner for Vehicles is suitable, in which a trumpet shape at an air intake opening of a Housing provided is.

A conventional centrifugal blower used in an air conditioner for vehicles is such as in 7 and 8th is shown (for example, JP 8-109897A) constructed. In 7 has a centrifugal fan 100 an engine 101 on, and multi-bladed fans 104 and 105 are at the end of rotary shafts 102 and 103 provided with the engine 101 are connected. The fans 104 and 105 are in housings 106 respectively. 107 contain. Air intake ports 108 and 109 are on both sides of the case 106 provided, and air intake openings 111 and 112 are on both sides of the case 107 intended. Through the air intake openings 108 and 109 sucked air is from the radial inside of the fan 104 to the radial outside of the fan 104 and to a heating unit (not shown) of an air conditioner through a flow path 110 sent in the case 106 is formed. Similarly, through the air intake openings 111 and 112 sucked air from the radial inside of the fan 105 to the radial outside of the fan 105 and to the heating unit of the air conditioner through a flow path 113 sent in the case 107 is formed. Each of the housings 106 and 107 is made of two housing parts 114 and 115 formed, which can be divided into the other in the arrow directions (in the radial direction of the multi-bladed fan), as in 8th is shown.

In the centrifugal blower, it is generally thought that, if a trumpet shape is provided at each air intake port, since the residence or return of air near the air intake port is prevented and the air flow can be stabilized, the reduction of the blower power and the generation of noise at the time the air suction can be prevented. In the centrifugal blower described above, however, when a trumpet shape is formed on each of the housings 106 and 107 is integrally provided with the housing, the structure of the mold for casting the housing complicated. Therefore, at least in a double axis type centrifugal blower as described above, a centrifugal blower having a trumpet shape at each air intake opening integral with the air intake opening has not been known as long as the inventors of the present invention have studied. In a centrifugal blower of the single-axis type, although a structure as in 9 shown in which a trumpet shape 116 with a diameter that extends to the interior of a housing 117 reduced, at an air intake opening 118 is integrally provided with the air intake opening, is known (eg JP 3-100399A), this trumpet shape extends 116 to the inside of the case 117 , and therefore, the mold for casting the housing may also be complicated, and a slide mechanism for dividing the molds may be necessary for setting and removing the molds. Further, particularly in a double-axis type centrifugal blower, the application of such a construction of a trumpet shape can be made 116 that requires complicated molds to be difficult.

On the other hand, if it is desired to separately manufacture such a trumpet shape and attach it to an air intake port after assembly, it may be particularly in a double-axis type centrifugal blower as described above because the axles 102 and 103 and the engine 101 are present, difficult to form a trumpet 116 at each of the aerial intake openings 109 and 112 to install. Further, the number of parts increases and the manufacturing cost of the blower may increase. US 2002-0021963 A discloses a blower arrangement for a window-type air conditioning system US 62006633 discloses a housing assembly for a blower unit. The US 1875881 discloses a blower housing with a trumpet shape construction.

It would be desirable a centrifugal fan provide that easily provide a trumpet shape at each air intake opening can without casting a complicated mold for casting a casing forming part and without increasing the number of parts, thereby effectively reducing the blower output of the blower and the Generation of noise from the blower is prevented.

According to the present invention, there is provided a centrifugal blower having multi-bladed fans having a plurality of blades, a blower being provided around each end of a rotary shaft in the circumferential direction thereof to form a double-axis type blower, and a housing for each multi-bladed fan including the multi-bladed fan; wherein the fan is arranged such that air drawn through air intake openings on the housing is drawn through a portion between adjacent blades, characterized by a trumpet shape on each housing, each trumpet shape having a diameter that extends to an outside of its corresponding housing increases from their respective air intake, wherein each housing is formed of a plurality of housing forming parts, which in each other in the Radial direction of their respective blower can be divided.

at the centrifugal fan according to the present Invention, the housing be made of a resin. Next, the trumpet can be integral with the housing be formed. In the structure in which the trumpet form integral with the housing is formed, the number of parts is reduced in comparison with a housing, wherein the trumpet shape is formed separately from the housing. If continue the housing is poured (for example, injection molding), it becomes possible that casing and to pour the trumpet form simultaneously, therefore the Cost of making the case and after all the entirety of the fan be reduced.

By Forming the housing from a plurality of housings forming parts, if the trumpet shape integral with the housing is poured, every case forming part with a trumpet-forming section with a complicated shape can easily be cast with a simple mold, which does not have to have a complicated structure like a sliding structure. Therefore, you can the cost of the form will be reduced. Further, by producing the structure the shape simply without using a sliding structure and the like the durability and reliability of the mold are increased, and the quality the housing forming parts can be improved.

at the above-described centrifugal blower according to the present invention can, because the trumpet shape with a diameter that extends to the outside of the housing enlarged, on the air intake opening is provided, which opens on the housing, the stay and the backflow of air near the aerial intake opening be prevented, and the air flow can be stabilized. Therefore can the blower output, attributed to a reduction in the amount of intake air becomes, and the generation of noise too the time of air suction are effectively prevented. Because these Trumpet form to the outside of the housing extends when the housing forming part is poured, the trumpet form section can easily one piece with the housing forming part by a simple shape without a complicated sliding structure and similar to be poured. Further, the increase in the number of parts can be prevented be in which the trumpet forming section integral with the housing forming part is formed. In particular, the trumpet shape can easily pass through Forming the housing from a plurality of housings forming parts which are in each other in the radial Direction of the multi-bladed fan can be divided.

Consequently For example, in the present invention, a desired trumpet shape may be on each Air intake port easy and cheap without using a complicated shape structure be formed. In particular, by applying the present Invention on a centrifugal fan of the double-axis type centrifugal blower with a desired Property can be easily and cheaply made.

Further Features and advantages of the present invention will become apparent from the following detailed description of the preferred embodiment the present invention with reference to the accompanying Figures understood, of which:

1 a vertical sectional view of a centrifugal blower according to an embodiment of the invention;

2 a side view of the in 1 shown centrifugal blower is;

3 an enlarged partial sectional view of a portion of an air intake opening of the in 1 shown centrifugal blower is;

4 an enlarged side view of a multi-bladed fan of in 1 shown centrifugal blower is;

5 a diagram is that the relationship between a flow rate coefficient and a pressure coefficient in the in 1 shown centrifugal fan and in a conventional centrifugal fan without trumpet shape;

6 a diagram is that the relationship between an air amount and a static pressure in the in 1 shown centrifugal fan and a conventional centrifugal fan without trumpet shape;

7 Fig. 4 is a vertical sectional view of a conventional centrifugal blower;

8th a side view of the in 7 shown centrifugal blower is;

9 an enlarged partial sectional view of a portion of an air intake opening of another conventional centrifugal blower is.

1 to 4 show a centrifugal blower according to an embodiment of the present invention. In this embodiment, a centrifugal blower 1 as a blower used in an air conditioner for vehicles. The centrifugal fan 1 has an engine 2 and is erected as a double-axis type centrifugal fan builds. Multi-bladed fan 6 and 7 each with a plurality of blades 5 are at the ends of rotary shafts 3 and 4 of the motor 2 intended. The majority of blades 5 are around each of the rotary shafts 3 and 4 provided in the circumferential direction thereof, as in 4 is shown. Each of the rotary shafts 3 and 4 is with the majority of blades 5 via a drive plate 8th connected, which is formed as a disk-like plate, and the drive plates 8th and the blades 5 be in accordance with the rotation of the rotary shafts 3 and 4 rotated in a predetermined direction by the arrow in 4 is shown. A connecting ring 9 is on the blades 5 of each of the multi-bladed fans 6 and 7 for connecting the blades 5 provided with each other and reinforcing and maintaining the connection formation.

The multi-bladed fans 6 and 7 are in snail-like housings 10 respectively. 11 contain. Air intake ports 12 and 13 open on the case 10 , and through the air intake openings 12 and 13 sucked air is from the radial inside of the multi-bladed fan 6 to the radial outside of the multi-bladed fan 6 output. The discharged air is supplied to a heating unit (not shown) of the air conditioner through a flow path 14 Posted. Similarly, air intake openings open 15 and 16 on the case 11 , and through the air intake openings 15 and 16 sucked air is from the radial inside of the multi-bladed fan 7 to the radial outside of the multi-bladed fan 7 output. The discharged air becomes the heating unit of the air conditioner through a flow path 17 Posted.

Trumpet forms 18 . 19 . 20 and 21 are at the corresponding air intake openings 12 . 13 . 15 and 16 intended. Every trumpet form 18 . 19 . 20 and 21 extends from each air intake opening 12 . 13 . 15 and 16 to the outside of the case 10 or 11 and the diameter of each trumpet shape increases toward the outside of the housing. Next is each of the trumpet forms 18 . 19 . 20 and 21 integral with the housing 10 or 11 educated. Each case with the trumpet shape is formed of, for example, a resin.

As in 1 and 2 is shown, is every case 10 and 11 from two housing forming parts 22 and 23 formed in each other in the radial direction of the multi-blast fan 6 or 7 can be divided. On each housing forming part 22 or 23 is a semicircular trumpet-forming section 24 or 25 intended. The split housing forming parts 22 and 23 form the housing 10 or 11 by connecting them together, and each trumpet shape having a circular shape is formed by connecting the trumpet shape forming portions 24 and 25 at the time of formation of the housing 10 or 11 educated.

Further, in this embodiment, the housing forming parts 22 and 23 formed so that they are in the directions of arrows, in 2 are shown to be divided. Therefore, by designing the parting lines of the molds for molding the housing forming parts 22 and 23 so that they are in 2 shown dividing lines, trumpet form forming sections 24 and 25 slightly integral with the housing forming parts 22 and 23 are poured without a complicated structure such as a sliding mechanism or the like is used.

In the thus constructed centrifugal blower 2 can, as the trumpet forms 18 . 19 . 20 and 21 , each having a diameter that increases to the outside of each housing, for the respective air intake openings 12 . 13 . 15 and 16 the corresponding housing 10 and 11 are provided, the staying and the return of air near each air intake opening are suitably prevented, the air flow from each air intake opening to the inside of each housing can be stabilized, and the pressure loss can be reduced. Therefore, since the variation of the amount of sent air attributed to the variation of the amount of sucked air can be suppressed, the blower output can be stabilized and improved, and a desirable blower performance can be maintained. Further, since the retention of air is prevented, noise generated at the time of the air suction is suppressed, and a quiet blower can be realized.

The relationship between the flow rate coefficient and the pressure coefficient in the above-described centrifugal fan 1 and the conventional centrifugal fan 100 without trumpet form, as in 7 is shown in is 5 shown. Further, the relationship between the amount of air (amount of blown air) and the static pressure in the above-described centrifugal blower 1 and the conventional centrifugal fan 100 without trumpet form, as in 7 is shown in 6 shown. How out 5 is apparent, even if the flow rate (the flow rate coefficient) is increased, the pressure loss is suppressed small (the pressure coefficient is kept high) compared with those in the conventional centrifugal blower 100 , How farther 6 is apparent, is a usable range for an air conditioner, which is present between the resistance curve at the time of the minimum load and the resistance curve at the time of the maximum load, in comparison with the conventional centrifugal fan 100 enlarged, and the advantage for improving the blower performance is shown.

Thus, the above-described centrifugal blower shows 1 with the appropriate trumpet forums excellent performance. Further in this embodiment, the trumpet forms 18 and 19 integral with the housing 10 are formed and the trompe tenformen 20 and 21 integral with the housing 11 are formed, the number of parts does not increase, and the cost due to the increase in the number of parts can be prevented. There continue the housing forming parts 22 and 23 and the trumpet-forming parts 24 and 25 that extend to the outside of the housing forming parts, can be cast simultaneously using a simple mold without using a complicated structure such as a sliding mechanism, the cost of casting and the cost of manufacturing the mold can be greatly reduced.

Although the centrifugal blower described above 1 As a double axis type centrifugal blower, the present invention can be applied to a single axis type centrifugal blower.

Claims (2)

Centrifugal fan ( 1 ) with multi-bladed blowers ( 6 . 7 ) with a plurality of blades, wherein a fan around each end of a rotary shaft ( 3 . 4 ) in the circumferential direction thereof is provided for forming a double-axis type blower, and a housing ( 10 . 11 ) for each multi-bladed fan and which contains the multi-blast fan, the fan being arranged such that air passing through air intake apertures ( 12 . 13 . 15 . 16 ) on the housings ( 10 . 11 ) is pulled through a section between adjacent blades, characterized by a trumpet shape ( 18 . 19 . 20 . 21 ) on each housing, each trumpet shape having a diameter which increases to an outside of its corresponding housing from its corresponding air intake opening, wherein each of the housings ( 10 . 11 ) is formed of a plurality of housing-forming parts, each in each other in the radial direction of their respective blower ( 6 . 7 ) can be divided. Centrifugal fan ( 1 ) according to claim 1, wherein each trumpet form ( 18 . 19 . 20 . 21 ) integral with the housing ( 10 . 11 ) is formed.